sw redi review yihua zheng june 9, 2014 sw redi. cme, flares, and coronal hole hss three very...
TRANSCRIPT
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SW REDI Review
Yihua Zheng
June 9, 2014
SW REDI
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CME, Flares, and Coronal Hole HSS
Three very important solar wind disturbances/structures for space
weather
Solar energetic protons
CME, Flares, and Coronal Hole HSSThe Sun
maker of space weather
Radiation stormo proton radiation (SEP) <flare/CME>o electron radiation <CIR HSS/CME>
Radio blackout storm <flare>Geomagnetic storm
o CME storm (can be severe)o CIR storm (moderate)
Recap
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Flares
• Most pronounced in X-ray or Extreme Ultraviolet
• Flares occurring on the Earth-facing solar disk classified by GOES X-ray measurement in the 0.1-0.8 nm (1-8 A)
• Measured by SDO EUV wavelengths• Farside flares – Can be seen in STEREO EUV
images
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Electromagnetic Spectrum
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Electromagnetic Spectrum
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http://www.nasa.gov/mission_pages/sunearth/news/light-wavelengths.html
Flares
Sun Primer: Why NASA Scientists Observe the Sun in Different Wavelengths
Different SDO Wavelengths
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Flare: SWx impacts
• Cause radio blackout through changing the structures/composition of the ionosphere (sudden ionospheric disturbances) – x ray and EUV emissions, lasting minutes to hours and dayside
• Affect radio comm., GPS, directly by its radio noises at different wavelengths
• Contribute to SEP – proton radiation, lasting a couple of days
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2012 March 7 X5.4/X1.3 flaresMost pronounced in x-ray and EUV
X-ray EUV EUV
BlendedEUV
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Solar Flare Consequences1: ionospheric dynamics
• The extreme Halloween solar flares are shown to have extreme ionospheric effects. Enhancements in ionospheric total electron content of 30% nominal values were noted for the 28 October 2003 event. These changes occurred on timescales of 5 min. The enhanced ionospheric TEC lasts for hours after the flares.
• The 260–340 A ° portion of the flare spectra through photoionization creates electron-ion pairs at altitudes >160 km, where the recombination rates are long. The x-ray portion of the flare spectra, on the other hand, creates ionization at 95–110 km altitude, where the recombination timescales are only approximately tens of seconds.
• There is a wide variation in flare spectra from event to event. It was shown that although the 4 November flare (X28) was almost double the intensity of the 28 October flare (X17) in 1–8 A ° x-rays. The 28 October flare was more than double the 4 November flare peak intensity in the 260–340 A ° EUV wavelength band.
Tsurutani, B. T., et al. ( 2006 ), Extreme solar EUV flares and ICMEs and resultant extreme ionospheric effects: Comparison of the Halloween 2003 and the Bastille Day events , Radio Sci. , 41 , RS5S07, doi:10.1029/2005RS003331.
X-ray and EUV
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Type II Radio Emission
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SUMMARY: 10cm Radio BurstBegin Time: 2012 Mar 07 0007 UTC Maximum Time: 2012 Mar 07 0117 UTCEnd Time: 2012 Mar 07 0210 UTCDuration: 123 minutesPeak Flux: 7200 sfuLatest Penticton Noon Flux: 138 sfu
This noise is generally short-lived but can cause interference for sensitive receivers including radar, GPS, and satellite communications.
Solar Flare: radio noise
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Cerruti, A. P., P. M. Kintner Jr., D. E. Gary, A. J. Mannucci, R. F. Meyer, P. Doherty, and A. J. Coster (2008), Effect of intense December 2006 solar radio bursts on GPS receivers, Space Weather, 6, S10D07, doi:10.1029/2007SW000375.
This event exceeded 1,000,000 solar flux unit and was about 10 times larger than any previously reported event.
Solar radio bursts affect GPS directly
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Coronal Mass Ejection (CME)
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SWx impacts of CME
• Contribute to SEP (particle radiation): 20-30 minutes from the occurrence of the CME/flare
• Result in a geomagnetic storm: takes 1-2 days arriving at Earth
• Result in electron radiation enhancement in the near-Earth space (multiple CMEs): takes 1-3 daysAffecting spacecraft electronics – surfacing charging/internal charging, single
event upsetsRadio communication, navigation Power grid, pipelines, and so on
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CME
• Massive burst of solar materials into the interplanetary space: 10^15 g
• Kinetic energy 10^32 erg• Yashiro et al. (2006) find that virtually all
X-class flares have accompanying CMEs
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CME viewed by coronagraph imagers
Eclipses allow corona to be better viewedDoes not happen oftenModern coronagraph imager is inspired by thatOcculting disk blocks the bright sun so we can observe corona features better
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CME Example
• March 7, 2012 CMEs associated with two x-class flares
iSWA layout
Associated with an Active Region
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CME from Filament eruption
Northeast (upper left) quadrant starting around 19:00 UT on Feb 10, 2012
A movie
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The associated CME
STEREO B SOHO STEREO A
Heart-shaped
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Coronal Hole HSS
Is one important space weather contributor too!
Particularly for its role in enhancing electron radiation levels near GEO orbit and for substantial energy input into the Earth’s upper atmosphere
May be more hazardous to Earth-orbiting satellites than CME-related magnetic storm particles and solar energetic particles (SEP)
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CIR and HSS
Co-rotating Interactive Regions (CIRs) are regions within the solar wind where streams of material moving at different speeds collide and interact with each other. The speed of the solar wind varies from less than 300 km/s (about half a million miles per hour) to over 800 km/s depending upon the conditions in the corona where the solar wind has its source. Low speed winds come from the regions above helmet streamers while high speed winds come from coronal holes.
As the Sun rotates these various streams rotate as well (co-rotation) and produce a pattern in the solar wind much like that of a rotating lawn sprinkler. However, if a slow moving stream is followed by a fast moving stream the faster moving material will catch-up to the slower material and plow into it. This interaction produces shock waves that can accelerate particles to very high speeds (energies).
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west
east
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Coronal Hole HSS
Mar 1, 2011
June 4, 2012
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WSA+ENLIL+cone
Predicting impacts of CMEs
WSA+ENLIL
Modeling and predicting the ambient solar wind
Forecasting capability enabled by ENLIL
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Current coronal hole
June 7, 2014 June 9, 2014
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In-situ signatures of CME and CIR HSS at L1
ACE and WIND
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May 2, 2010
Dense (20-30 cc), HSS
IMFBz: -18 nT
Clean HSS
may be more hazardous to Earth-orbiting satellites than ICME-related magnetic storm particles and solar energetic particles
Electron radiation
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Aug 3, 2010
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Schematic of the three-dimensional structure of an ICME and upstream shock
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Current storm
Kp=6
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Space Weather Effects and Timeline
Two X-class flares/Two fast wide CMEs
Flare effects at Earth:~ 8 minutes (radio blackout storms)Duration: minutes to hours
SEP radiation effects reaching Earth: 20 minutes – 1hour after the event onsetDuration: a few days
CME effects arrives @ Earth: 1-2 days (35 hours here)Geomagnetic storms: a couple of days
(Flare and CME)
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Types of Storms
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CMESTEREO A
STEREO B
Earth*SOHO/ACE
OrientationSDO
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CME and SEP path are different
CME: could get deflected, bended, but more or less in the radial direction
Courtesy: Odstrcil
SEPs
CME
CME
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CME impact and SEP (Solar Energetic Particle) impact are differentCME
Important distinction
CME impact @ Earth: Geomagnetic Storm
Radiation storm @ Earth from SEPs
CME speed: 300 – 3500 km/sSEPs: fraction of cLight speed c: 3 x10^5 km/s
Ion Radiation storm vs Geomagnetic storm
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SEPs: ion radiation stormsPotentially affect everywhere in the solar system
Courtesy: SVS@ NASA/GSFC
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Two Main Drivers for the Magnetosphere
• CME (you have seen plenty of them already)• CIR (Corotating Interaction Region) High Speed
solar wind Stream (HSS)
Geomagnetic storm o CME storm (can be
severe) Kp can reach 9o CIR storm (moderate)
Kp at most 6
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Geomagnetic Storms:CME interaction with Earth (magnetic field)
Courtesy: SVS@ NASA/GSFCGeomagnetic storms due to CIRs are at most moderate
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SWx in the near-Earth environment
• Solar wind +magnetosphere interactions• CIR/HSS and CME impacts on Earth• Importance of magnetosphere in space
weather
Geomagnetic storm o CME storm (can be
severe)o CIR storm (moderate)
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The solar wind pushes and stretches Earth’s magnetic field into a vast, comet-shaped region called the magnetosphere. The magnetosphere and Earth’s atmosphere protect us from the solar wind and other kinds of solar and cosmic radiation.
Sun
Earth’s magnetosphere
NASA/GSFC, internal use only :-)
Flares/CME/High-Speed Streams
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Different impacts on RBCME vs CIR storms
• CME geomagnetic storms: RB flux peak inside geosynchronous orbit. The peak locations moves inward as storm intensity increases
• CIR geomagnetic storms: More responsible for the electron radiation level enhancement at GEO orbit
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NASA/GSFC, internal use only :-)
HSS and radiation belt electron flux enhancementGOES data of energetic electron fluxes
ACE measurements of Solar Wind Speed
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Ionospheric Dynamics/Storms
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Courtesy: ICON
Text
The ionosphere is the densest plasma between the Earth and Sun, and is traditionally believed to bemainly influenced by forcing from above (solar radiation, solar wind/magnetosphere)
Recent scientific results show that the ionosphereis strongly influenced by forces acting from below.
Research remains to be done: How competing influences from above and below shape our space environment.
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iSWA layouts-
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layouts
• Monitoring of space weather activities• Events• Anomaly• Comparative study• Weekly summary and highlights of specifics
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Layouts - examples
• http://1.usa.gov/1rQXhWK - x1.4 flare on April 25, 2014
• http://1.usa.gov/1kr0842 - summary 20140430
• http://1.usa.gov/1i2Qemt scintillation with Kp• http://1.usa.gov/1gPzEKM scintillation• http://1.usa.gov/1deGdXC anomaly resolution• http://1.usa.gov/1fk5Fv6 coronal hole
responsible for Saturn aurora
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Layouts - examples
• http://1.usa.gov/1e5ZBDW - march 7, 2012 event• http://1.usa.gov/LSfnaC - evolution of March 2013
coronal hole in SDO, STA and STB• http://1.usa.gov/1lZjWeD - SDO view of the coronal
hole when it arrived at ACE• http://1.usa.gov/1c51alC - layout of the 2013-09-29
CME and its impacts• http://1.usa.gov/HUue2U - summary_20131113• http://1.usa.gov/172TYTB - 20131107 CME highlight